For a constant force, work = force x distance. In other words, just multiply the two. The answer is in joules.
You can use the following theoryIf the resultant force F on an object acts while the object is displaced a distance d, and the force and displacement act parallel to each other, the mechanical work done on the object is the product of F multiplied by d: [3]W = F * d Work=Force*distance,Where work is expressed in joules, force in newtons, and distance in meters.
Work = (force) x (distance) = (200 n) x (15 m) = 3,000 n-m = 3,000 joules
Newtonmeters are a unit used to measure torque, which is the force that causes an object to rotate around an axis. It combines the unit of force (Newtons) with the unit of distance (meters) to quantify how much force is being applied to rotate an object.
The units newtons per meter refer to the quantity known as a spring constant, which represents the stiffness of a spring. It describes how much force is needed to stretch or compress the spring by a certain distance.
work done is defined as force applied (newtons) * distance travelled (metres)in this case 50.5 n * 8m = 404 joules.note:if you divide it by the time taken, for example 2 seconds, this gives power (in watts)so (50.5 n * 8m) / 2 seconds= 202 watts
The work done is calculated as force multiplied by distance. In this case, 10 newtons of force applied over a distance of 50 meters amounts to 500 joules of work done.
Work = force x distance = Newtons x meters = 1937 Joules.
The work done on an object is calculated by multiplying the force applied by the distance moved in the direction of the force. In this case, the work done would be 18 joules, which is equal to 6 newtons multiplied by 3 meters.
The work done by the person is calculated as the force applied multiplied by the distance the cart moves in the direction of the force. In this case, the work done would be 40 newtons x 10 meters = 400 joules.
The work done is calculated by multiplying force by distance moved in the direction of the force. So, the work done in lifting the boy 3 meters with a force of 10 newtons is 30 joules.
Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.Work is equal to force x distance. If the force is specified in Newtons, and the distance in meters, then the work is in Joules.
Work is calculated by multiplying the force applied by the distance moved in the direction of the force. In this case, the work done is 250 newtons * 50 meters = 12,500 joules.
The work done to lift the object is equal to the force applied multiplied by the distance moved in the direction of the force. In this case, the work done would be 500 newtons x 8 meters = 4000 joules.
When a force of 50 newtons is maintained through a distance of 3 meters, 150 newton-meters = 150 joules of work has been done. Whether there was a refrigerator involved, or whether it happened in the kitchen, bathroom or garage, and whether in daylight or dark, are completely irrelevant parameters.
Work done is equal to Force multiplied by distance:Wd = FxdWd = 324x3Work done = 972 Joules.
The work done is 50 Joules. Work is calculated using the formula W = F*d, where W is work, F is the force applied, and d is the distance moved. The force applied is 10 Newtons and the distance moved is 5 meters, so the work done is 10 * 5 = 50 Joules.
The work done on the box can be calculated as the force applied multiplied by the distance moved. In this case, the work done on the box is 600 joules (50 Newtons * 12 meters).